Estrogens receptors, nuclear coactivator 1 and ligand-dependent corepressor expression are altered early during induced ovarian follicular persistence in dairy cattle.

[1]  H. Ortega,et al.  Association between heat stress during intrauterine development and the expression and regulation of ovarian steroid hormone receptors in adult Holstein cows. , 2022, Reproduction, Fertility and Development.

[2]  H. Ortega,et al.  Effects of adrenocorticotrophic hormone on the expression of matrix metalloproteinases and their inhibitors in the bovine ovary. , 2020, Reproduction, fertility, and development.

[3]  H. Ortega,et al.  Contribution of the VEGF system to the follicular persistence associated with bovine cystic ovaries. , 2019, Theriogenology.

[4]  N. Harbeck,et al.  Importance of RIP140 and LCoR Sub-Cellular Localization for Their Association With Breast Cancer Aggressiveness and Patient Survival1 , 2018, Translational oncology.

[5]  H. Ortega,et al.  Changes in the Proliferation/Apoptosis Balance in the Bovine Ovary: A Key Early Event in Follicular Persistence , 2017, Cells Tissues Organs.

[6]  C. Rodríguez,et al.  Complex regulation of LCoR signaling in breast cancer cells , 2017, Oncogene.

[7]  H. Ortega,et al.  Follicular Cysts: A Single Sign and Different Diseases. A View from Comparative Medicine. , 2016, Current pharmaceutical design.

[8]  Haibin Wang,et al.  Transcriptional activation of nuclear estrogen receptor and progesterone receptor and its regulation. , 2016, Sheng li xue bao : [Acta physiologica Sinica].

[9]  W. J. Silvia,et al.  Characterization of persistent follicles induced by prolonged treatment with progesterone in dairy cows: an experimental model for the study of ovarian follicular cysts. , 2015, Theriogenology.

[10]  M. L. Stangaferro,et al.  Molecular aspects of bovine cystic ovarian disease pathogenesis. , 2015, Reproduction.

[11]  H. Ortega,et al.  Epidemiological description of cystic ovarian disease in argentine dairy herds: risk factors and effects on the reproductive performance of lactating cows. , 2014, Reproduction in domestic animals = Zuchthygiene.

[12]  E. Margeat,et al.  Negative regulation of estrogen signaling by ERβ and RIP140 in ovarian cancer cells. , 2013, Molecular endocrinology.

[13]  Matti Poutanen,et al.  The transcriptional co-factor RIP140 regulates mammary gland development by promoting the generation of key mitogenic signals , 2013, Development.

[14]  S. Assou,et al.  Altered gene expression profile in cumulus cells of mature MII oocytes from patients with polycystic ovary syndrome. , 2012, Human reproduction.

[15]  H. Ortega,et al.  Alteration in localization of steroid hormone receptors and coregulatory proteins in follicles from cows with induced ovarian follicular cysts. , 2012, Reproduction.

[16]  M. L. Stangaferro,et al.  Steroid receptor mRNA expression in the ovarian follicles of cows with cystic ovarian disease. , 2012, Research in veterinary science.

[17]  M. L. Stangaferro,et al.  Cell proliferation and survival mechanisms underlying the abnormal persistence of follicular cysts in bovines with cystic ovarian disease induced by ACTH. , 2010, Animal reproduction science.

[18]  J. Richards,et al.  The nuclear receptor cofactor receptor-interacting protein 140 is a positive regulator of amphiregulin expression and cumulus cell-oocyte complex expansion in the mouse ovary. , 2010, Endocrinology.

[19]  John H. White,et al.  Ligand-dependent Corepressor LCoR Is an Attenuator of Progesterone-regulated Gene Expression* , 2009, The Journal of Biological Chemistry.

[20]  V. Padmanabhan,et al.  Developmental programming: prenatal androgen excess disrupts ovarian steroid receptor balance. , 2009, Reproduction.

[21]  W. J. Silvia,et al.  Effect of subluteal concentrations of progesterone on luteinizing hormone and ovulation in lactating dairy cows. , 2008, Veterinary journal.

[22]  M. Christian,et al.  Role of RIP140 in metabolic tissues: Connections to disease , 2008, FEBS letters.

[23]  N. Isobe,et al.  Deficient proliferation and apoptosis in the granulosa and theca interna cells of the bovine cystic follicle. , 2007, The Journal of reproduction and development.

[24]  Margaret Warner,et al.  Estrogen receptors: how do they signal and what are their targets. , 2007, Physiological reviews.

[25]  E. Gimeno,et al.  Estrogen Receptors α and β and Progesterone Receptors in Normal Bovine Ovarian Follicles and Cystic Ovarian Disease , 2007 .

[26]  P. Balaguer,et al.  Negative regulation of hormone signaling by RIP140 , 2006, The Journal of Steroid Biochemistry and Molecular Biology.

[27]  V. Cavaillès,et al.  The nuclear receptor transcriptional coregulator RIP140 , 2006, Nuclear receptor signaling.

[28]  J. Steibel,et al.  Optimizing ovulation to first GnRH improved outcomes to each hormonal injection of ovsynch in lactating dairy cows. , 2006, Journal of dairy science.

[29]  A. de Kruif,et al.  Aetiology and pathogenesis of cystic ovarian follicles in dairy cattle: a review. , 2006, Reproduction, nutrition, development.

[30]  C. Risco,et al.  Strategies for the diagnosis and treatment of ovarian cysts in dairy cattle. , 2005, Journal of the American Veterinary Medical Association.

[31]  Amrozi,et al.  Distribution of estrogen receptor alpha in the dominant follicles and corpus luteum at the three stages of estrous cycle in Japanese black cows. , 2004, The Journal of veterinary medical science.

[32]  K. Dahlman-Wright,et al.  Estrogen Receptor (ER)-β Reduces ERα-Regulated Gene Transcription, Supporting a “Ying Yang” Relationship between ERα and ERβ in Mice , 2003 .

[33]  W. Van den Broeck,et al.  Cell-specific distribution of oestrogen receptor-alpha in the bovine ovary. , 2002, Reproduction in domestic animals = Zuchthygiene.

[34]  W. J. Silvia,et al.  Ovarian follicular cysts in dairy cows: an abnormality in folliculogenesis. , 2002, Domestic animal endocrinology.

[35]  D. Lubahn,et al.  Dominant Bovine Ovarian Follicular Cysts Express Increased Levels of Messenger RNAs for Luteinizing Hormone Receptor and 3β-Hydroxysteroid Dehydrogenase Δ4,Δ5 Isomerase Compared to Normal Dominant Follicles , 2001 .

[36]  R. Roberts,et al.  Intraovarian actions of oestrogen. , 2001, Reproduction.

[37]  O. Conneely Perspective: female steroid hormone action. , 2001, Endocrinology.

[38]  T. Iwanaga,et al.  Expression of estrogen receptor-alpha and -beta mRNAs in the male reproductive system of the rat as revealed by in situ hybridization. , 2001, Journal of molecular endocrinology.

[39]  W. F. Pope,et al.  Evidence for expression of estrogen receptor cofactor messenger ribonucleic acid in the ovary and uterus of domesticated animals (sheep, cow and pig). , 2001, Life sciences.

[40]  Narender Kumar,et al.  Estrogen Receptor-β Expression in Relation to the Expression of Luteinizing Hormone Receptor and Cytochrome P450 Enzymes in Rat Ovarian Follicles1 , 2000, Biology of reproduction.

[41]  I. Rosewell,et al.  The nuclear receptor co-repressor Nrip1 (RIP140) is essential for female fertility , 2000, Nature Medicine.

[42]  Hong Wang,et al.  Estrogen Receptors α and β in the Female Reproductive Tract of the Rat During the Estrous Cycle1 , 2000 .

[43]  J. Gustafsson,et al.  Estrogen receptor β acts as a dominant regulator of estrogen signaling , 2000, Oncogene.

[44]  D. Edwards The Role of Coactivators and Corepressors in the Biology and Mechanism of Action of Steroid Hormone Receptors , 2000, Journal of Mammary Gland Biology and Neoplasia.

[45]  D. Robyr,et al.  Nuclear hormone receptor coregulators in action: diversity for shared tasks. , 2000, Molecular endocrinology.

[46]  M. Sar,et al.  Differential Expression of Estrogen Receptor-β and Estrogen Receptor-α in the Rat Ovary. , 1999, Endocrinology.

[47]  B. Katzenellenbogen,et al.  Transcription Activation by the Human Estrogen Receptor Subtypeβ (ERβ) Studied with ERβ and ERα Receptor Chimeras* *This work was supported by NIH Grants CA-18119 and CA-60514 (to B.S.K.). , 1998, Endocrinology.

[48]  Ewert Bengtsson,et al.  Automatic Quantification of Immunohistochemically Stained Cell Nuclei Based on Standard Reference Cells , 1998, Analytical cellular pathology : the journal of the European Society for Analytical Cellular Pathology.

[49]  K. Leslie,et al.  The role of oestrogen in follicular development. , 1997, Molecular human reproduction.

[50]  J. Polman,et al.  ERβ: Identification and characterization of a novel human estrogen receptor , 1996 .

[51]  J. Gustafsson,et al.  Cloning of a novel receptor expressed in rat prostate and ovary. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[52]  M. Wiltbank,et al.  Synchronization of ovulation in dairy cows using PGF2α and GnRH , 1995 .

[53]  D. Ciocca,et al.  Estrogen receptors in human nontarget tissues: biological and clinical implications. , 1995, Endocrine reviews.

[54]  R T Turner,et al.  Skeletal effects of estrogen. , 1994, Endocrine reviews.

[55]  R. Evans,et al.  The steroid and thyroid hormone receptor superfamily. , 1988, Science.

[56]  J. Kaneene,et al.  Cystic follicular disease in Michigan Holstein-Friesian cattle: Incidence, descriptive epidemiology and economic impact , 1986 .

[57]  B. Berisha,et al.  Expression of estrogen and progesterone receptors in the bovine ovary during estrous cycle and pregnancy , 2002, Endocrine.

[58]  John H. White,et al.  Corepressor recruitment by agonist-bound nuclear receptors. , 2004, Vitamins and hormones.

[59]  John H. White,et al.  Ligand-dependent nuclear receptor corepressor LCoR functions by histone deacetylase-dependent and -independent mechanisms. , 2003, Molecular cell.

[60]  Thomas B Farver,et al.  A Body Condition Scoring Chart for Holstein Dairy Cows , 1989 .

[61]  J. Richards,et al.  Maturation of ovarian follicles: actions and interactions of pituitary and ovarian hormones on follicular cell differentiation. , 1980, Physiological reviews.